Atomization core
Technical field
The utility model relates to air and improves apparatus field, is specifically related to a kind of atomization core that can be used for expanding fragrant device.
Background technology
Along with improving constantly of people's living standard, the activity that people participate in also gets more and more, however a lot of playground, as: hotels etc., if air is impure and fresh, can easily make people produce the offending moods such as tired, irritated.In order to build a good environment, what people more generally adopted is uses solid essence, in room, the method such as perfumes, to improve the quality of room air, thus plays the effect keeping with fresh air in room, eliminate peculiar smell and sterilizing.But, with regard to the former, the fragrance of solid essence can not be come out completely, often cause certain waste.The latter is in the process used, cumbersome, and due to the perfume particle that sprays out comparatively large, the scope that can float is very little, and therefore the efficiency of this method is also very low.
Expand fragrant device for being atomized by essential oil, fragrance is diffused in air to improve the quality of air.Correlation technique discloses the fragrant device of a kind of expansion, and it utilizes siphon principle to suck essential oil from Ethereal oil bottle, and is atomized by essential oil by atomization core, and then is diffused in air.But, the complicated structure of the atomization core of the fragrant device of existing expansion, expensive, cause expanding holding at high price of fragrant device.
Utility model content
In view of this, the utility model aims to provide a kind of compact conformation, atomization core that cost is low.
In order to realize the purpose of this utility model, the utility model provides a kind of atomization core, it comprises atomization core print seat, atomization rotary core and atomization core cap, described atomization rotary core is arranged in described atomization core print seat, described atomization core cap is positioned at the outside of described atomization rotary core, and coordinate to be limited in described atomization core print seat by described atomization rotary core with described atomization core print seat, described atomization rotary core has imbibing hole, described atomization core cap offers the nozzle relative with the outlet of described imbibing hole, there is in described atomization core print seat gas channel and imbibition passage, described gas channel is used for air-flow to lead described nozzle, described imbibition passage is communicated with by imbibing hole described in guiding fluid with described imbibing hole.
Preferably, described atomization core also comprises pipette joint, and described pipette joint is connected with described atomization core print seat, and can rotate relative to described atomization core print seat around himself axis, described pipette joint and described imbibition channel connection, and for connecting pipette.
Preferably, described pipette joint comprises joint body and to be connected on described joint body and the first joint communicated and the second joint, described first joint is used for being connected with described pipette, described second joint is inserted in described imbibition passage, the axis being axially perpendicular to described second joint of described first joint.
Preferably, described atomization core print seat up/down perforation, and be wherein provided with installing plate, described atomization rotary core is limited between described installing plate and described atomization core cap, described installing plate offers the passage running through described installing plate along the vertical direction, described passage communicates with described nozzle.
Preferably, described installing plate offers multiple described passage, described multiple passage is uniformly distributed along the circumference of described installing plate.
Preferably, described atomization core print seat comprises atomization core print seat body, and the outer wall of two ends up and down of described atomization core print seat body is formed with respectively thread segment and lower thread segment, described lower thread segment is threaded with described atomization core cap.
Preferably, accepting hole is offered in described atomization core print seat body, described atomization rotary core and atomization core cap are all arranged in accepting hole, and described atomization core cap is positioned at the outside of described atomization core cap, described atomization rotary core and atomization core cap are pressed in atomization core print seat body.
Preferably, described atomization rotary core comprises linkage section and sections of atomization, described linkage section is connected with atomization core print seat, described sections of atomization contacts with atomization core cap, the middle part of described sections of atomization is formed with a conical head, the outlet of described imbibing hole is positioned on described conical head, and the surface that described atomization core cap is relative with described atomization rotary core is formed with the conical surface, and having between described conical head and the described conical surface can the gap that flows through of air feed.
Preferably, described atomization core print seat, atomization rotary core and atomization core cap are made by plastic cement.
Preferably, described atomization rotary core is formed with the guiding gutter of multiple outlet around described imbibing hole, the outlet of the projection in the sagittal plane of described imbibing hole of the bearing of trend of described guiding gutter and described imbibing hole be formed radially angle.
The atomization core that the utility model provides, its structure is simple, and easily manufactured, holistic cost is lower.
Accompanying drawing explanation
Fig. 1 is the explosive view of the atomization core that the utility model embodiment provides.
Fig. 2 is the blast sectional view of the atomization core in Fig. 1.
Fig. 3 is another visual angle explosive view of the atomization core in Fig. 1.
Fig. 4 is the structural representation of the atomization rotary core of atomization core in Fig. 3.
Fig. 5 is the assembling view of the atomization core in Fig. 1.
Detailed description of the invention
In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.
Please refer to Fig. 1 to Fig. 5, the utility model embodiment provides a kind of atomization core 32, and it comprises atomization core print seat 321, atomization rotary core 322 and atomization core cap 323.
Atomization rotary core 322 is arranged in atomization core print seat 321, and atomization core cap 323 is positioned at the outside of atomization rotary core 322, and coordinates with atomization core print seat 321 and be atomized in core print seat 321 to be limited in by atomization rotary core 322.Atomization rotary core 322 has imbibing hole 3224, atomization core cap 323 offers the nozzle 3231 relative with the outlet of imbibing hole 3224, in atomization core print seat 321, there is gas channel and imbibition passage 3216, gas channel is used for air-flow to lead nozzle 3231, and imbibition passage 3216 is communicated with by guiding fluid imbibing hole 3224 with imbibing hole 3224.
Particularly, air-flow is guided between atomization rotary core 322 and atomization core cap 323 by gas channel, and sprays from nozzle 3231.Due to air-flow ejection at a high speed, therefore near the outlet of the imbibing hole 3224 relative with nozzle 3231, negative pressure is formed, thus essential oil is inhaled in imbibing hole 3224 under this suction function, and mix with air-flow in the exit of imbibing hole 3224 and be atomized, then self-spray mouth 3231 sprays.
In a preferred embodiment, this atomization core 32 also comprises pipette joint 325.Pipette joint 325 connects atomization core print seat 321 and pipette 33.Pipette joint 325 can rotate relative to atomization core print seat 321 around himself axis, and pipette joint 325 is communicated with imbibition passage 3216.Essential oil can enter into atomization rotary core 322 by pipette 33, pipette joint 325 and imbibition passage 3216.Because pipette 33 is comparatively hard, when therefore Ethereal oil bottle being installed in the fragrant equipment of expansion, not easily pipette 33 is inserted in Ethereal oil bottle.And the pipette joint 325 of the application can rotate, therefore when installing Ethereal oil bottle, can first rotate pipette joint 325, pipette 33 being easily inserted in Ethereal oil bottle, and then rotating pipette joint 325, make Ethereal oil bottle be placed into operating position.
Further preferably, pipette joint 325 comprises joint body 3251 and to be connected on joint body 3251 and the first joint 3252 and the second joint 3253 communicated, first joint 3252 is connected with the upper end of pipette 33, and the second joint 3253 is inserted in imbibition passage 3216.The axis being axially perpendicular to the second joint 3253 of the first joint 3252.Particularly, the second joint 3253 of pipette joint 325 is inserted in the imbibition passage 3216 of atomization core print seat 321, and be stuck in imbibition passage 3216 in order to avoid accidentally extract.Second joint 3253 can rotate around himself axis in imbibition passage 3216.First joint 3252 and pipette 33 are also adopt the detachable snap fit being similar to the second joint 3253 to be connected.
In a preferred embodiment, atomization core print seat 321 up/down perforation, and be wherein provided with installing plate 3214, atomization rotary core 322 is limited between installing plate 3214 and atomization core cap 323.Installing plate 3214 offers the passage 3215 running through installing plate 3214 along the vertical direction, this passage 3215 communicates with nozzle 3231.The air-flow that air pump produces enters into the upper end of atomization core print seat 321 by inlet channel, is then entered into the lower end of atomization core print seat 321 by passage 3215, then sprays from nozzle 3231.Passage 3215 is a part for said flow passage.In a further preferred embodiment, installing plate 3214 offers the equally distributed passage 3215 of multiple circumferential direction along installing plate 3214, so arrange and the air-flow in atomization core print seat 321 can be made more even.
In a preferred embodiment, atomization core print seat 321 comprises atomization core print seat body 3211, the outer wall of two ends up and down of atomization core print seat body 3211 is formed with thread segment 3213 and lower thread segment 3212 respectively, upper thread segment 3213 is for being threaded with the dividing plate in atomising device body, and lower thread segment 3212 is threaded with atomization core cap 324.Atomization rotary core 322 is arranged in atomization core print seat 321, and atomization core cap 323 is positioned at the outside of atomization rotary core 322, and coordinates with atomization core print seat 321 and be atomized in core print seat 321 to be limited in by atomization rotary core 322.
In a further preferred embodiment, accepting hole is offered in atomization core print seat body 3211, atomization rotary core 322 and atomization core cap 323 are all arranged in accepting hole, atomization core cap 324 is positioned at the outside of atomization core cap 323, compress the outer surface of atomization core cap 323, atomization core cap 323 and atomization rotary core 322 are limited in atomization core print seat 321.In other embodiments, atomization core cap 323 can be connected with the inner thread of accepting hole, thus saves atomization core cap 324.
In a preferred embodiment, atomization rotary core 322 comprises linkage section 3221 and sections of atomization 3222, and linkage section 3221 can be connected with atomization core print seat 321, and sections of atomization 3222 contacts with atomization core cap 323.The middle part of sections of atomization 3222 is also formed with a conical head 3223, and namely the outlet of imbibing hole 3224 is positioned on this conical head 3223.The surface that atomization core cap 323 is relative with being atomized rotary core 322 is formed with the conical surface, and having between conical head 3223 and the conical surface can the gap that flows through of air feed.When air pump supply air flow, air-flow is through atomization core print seat body 3211, and the gap then between conical head 3223 and the conical surface, then sprays from nozzle 3231.
In a preferred embodiment, be atomized core print seat 321, atomization rotary core 322 and atomization core cap 323 to make by plastic cement.Atomization core before generally adopts metal material to make, and the patent structure of the application then uses plastic cement to make, and being because material cost can be made greatly to reduce on the one hand, is then easy manufacture on the other hand.
Please refer to Fig. 4, in a preferred embodiment, the lower end of atomization rotary core 322 is formed with the guiding gutter 3225 of multiple outlet around imbibing hole 3224, the outlet of the projection in the sagittal plane of imbibing hole 3224 of the bearing of trend of guiding gutter 3225 and imbibing hole 3234 be formed radially angle.Particularly, guiding gutter 3225 is opened on sections of atomization 3222, and matches with the inner surface of atomization core cap 323 part forming said flow passage.In the sagittal plane (also namely perpendicular to the plane of the axis of imbibing hole 3224) of imbibing hole 3224, the projection ecto-entad of guiding gutter 3225 extends, and the outlet of bearing of trend and imbibing hole 3224 be formed radially angle, that is guiding gutter 3225 is not extend along the radial direction of imbibing hole 3224.The height of the outboard end of guiding gutter 3225 is higher than the height of its medial extremity, and also namely guiding gutter 3225 is obliquely installed.Be formed radially angle due to the bearing of trend of multiple guiding gutter 3225 and the outlet of imbibing hole 3224, be therefore easy to go out interruption-forming cyclone at imbibing hole 3224, be conducive to essential oil atomisation higher for viscosity.Experiment proves, common atomization core needs the air pressure of more than 20KPa essential oil could be atomized preferably, and this atomization core 32 only needs the air pressure of 4KPa can realize the atomization of same degree.It should be noted that, the cross section of imbibing hole 3224 can be circle also can be square or other shapes, when its be square or other shapes time, the radial direction of the outlet of indication imbibing hole 3224 herein refers to the direction extended to its surrounding for the center of circle with the center of the outlet of imbibing hole 3224.
The atomization core that the utility model provides, its structure is simple, and easily manufactured, holistic cost is lower.
The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all do within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., all should be included within protection domain of the present utility model.